How does a thermal camera work in a parking system?

Table of Contents

1. Introduction
2. Working Principles of Thermal Cameras
3. Thermal Cameras in Parking Systems
4. Savgood Company Solutions
5. Numerical Analysis
6. Conclusion
7. References

Introduction

In the realm of modern parking systems, thermal cameras play a crucial role by enhancing vehicle detection, monitoring, and overall system efficiency. This article delves into the operational mechanisms of thermal cameras within parking systems, analyzes specific numerical parameters, and highlights the solutions offered by Savgood Company.

Working Principles of Thermal Cameras

Thermal cameras operate by detecting infrared radiation (heat) emitted by objects. These cameras capture the thermal energy from vehicles and surroundings, translating it into a visible image. Key parameters include sensitivity (measured in millikelvins, mK), resolution (usually in pixels), and spectral range (commonly 8-14 µm for thermal imaging systems).

Thermal Cameras in Parking Systems

In parking systems, thermal cameras provide numerous benefits including detecting unauthorized access, monitoring occupancy rates, and improving security. Unlike traditional cameras, they deliver consistent performance in varying light conditions.

• Detection Range: Capable of detecting vehicles at distances up to 100 meters, depending on the camera specification.
• Occupancy Accuracy: Thermal imaging can achieve accuracy levels greater than 95% in vehicle detection.

Savgood Company Solutions

Savgood Company specializes in advanced thermal camera solutions for parking systems. Their products emphasize high thermal sensitivity (<40mK) and robust image processing algorithms, allowing accurate vehicle identification and enhanced system integration capabilities.

Numerical Analysis

Thermal cameras typically exhibit the following numerical performance metrics in parking systems:

• Resolution: Typically 320x240 pixels or higher, suitable for accurate vehicle detection.
• Field of View (FOV): Varied from 6° to 60°, allowing for flexible application in different parking layouts.
• Temperature Range: Operational from -40°C to 60°C, ensuring functionality across diverse environmental conditions.

Conclusion

Thermal cameras significantly enhance parking systems by offering reliable vehicle detection and monitoring under various environmental conditions. Companies like Savgood provide sophisticated solutions that leverage these technologies to offer superior performance and efficiency.

References

1. Infrared Thermography: Principles and Applications, Wiley, 2020.
2. Savgood Company Official Website: https://www.savgood.com
3. Application of Thermal Imaging in Smart Parking Systems, Journal of Traffic Technologies, Vol. 12, 2021.